KR0148090B1 - Premixing apparatus for high load gas fuel in gas boiler - Google Patents

Abstract

The present invention mixes (premixes) gas fuel and combustion air supplied to a pre-mixed gas burner widely used for a gas combustion device so that complete combustion occurs when the mixed fuel gas is burned in the gas burner. By maximizing the thermal efficiency of the boiler at the same time to minimize the generation of harmful gases generated during combustion, a plurality of nozzles formed in the circumferential direction of the gas fuel supply port and the inner body for supplying fuel to one side of the outer body Formed to form a gaseous fuel at the same pressure to both the inner side of the outer body. It is a compact premixing apparatus for compact high-load gas fuel combustion, characterized by forming a first chamber and a second chamber for ejecting, and formed with a small gap connecting the first chamber and the second chamber.

Description

Ultra-small premixing device for high load gas fuel combustion of gas boiler

1 is a longitudinal sectional view in a state where a main part is incised.

2 is a longitudinal cross-sectional view of the present invention.

3 is an installation state of the present invention.

* Explanation of symbols for main parts of the drawings

1: outer body 1a: first chamber

1b: 2nd chamber 1c: protrusion

2: gas fuel supply port 3: inner body

3a, 3b: nozzle

The present invention is an ultra-small premixed feast for gas-fuel high-load gas fuel combustion, and more specifically, pre-mixed gas fuel and combustion air supplied to a pre-mixed gas burner widely used for gas combustion equipment. In order to maximize combustion efficiency of the boiler by minimizing the generation of harmful gases at the same time, the combustion of the mixed fuel gas in the gas burner is completed.

In general, most gas burners, which are widely used in gas combustion equipment such as domestic gas boilers, have a semi-bunsen gas burner, which has advantages such as low flame stability and low risk of flame backfire. This semi-bunsen gas burner is used as a combustion exhaust gas because the flame length of the burner is structurally long and the actual amount of combustion air required for combustion requires much more than the theoretical air. Due to the large amount of loss and emission of pollutants such as NOx, CO, etc., the direction in which the gas burner is attached to gas burners such as gas boilers is limited to the bottom-up, thus improving and maximizing the efficiency of gas burners. There was a problem in that there was some limitation in making.

In addition, as a pre-mixer that premixes combustion air and gas fuel before combustion, a venturi type premixer is mainly used, but a Venturi type premixer has a disadvantage in that its structure is large and complicated. In the premixer used in the combustion apparatus, that is, a gas fuel nozzle and a plurality of swirlers are installed in the center of the combustion air hole, the mixing ratio of the combustion air and the gas fuel is increased as the gas fuel nozzle is biased. Not only does not form uniformly, but also has a disadvantage in that the pressure loss due to the use of a rotor (Swirler) is large.

Accordingly, the present invention has been made to solve the above-mentioned problems, the present invention is to mix the gas fuel and combustion air supplied in advance to the gas burner of the pre-mixing method that is widely used for small gas combustion equipment gas When the mixed fuel gas is burned in the burner, the complete combustion is performed, thereby maximizing the thermal efficiency of the boiler and minimizing the generation of harmful gases generated during combustion. The purpose is to provide a device.

According to the form of the present invention for achieving the above object, it is formed by a gas fuel supply port for supplying fuel to one side of the outer body and a plurality of nozzles formed in the circumferential direction of the inner body, the gas to both inner sides of the outer body Form fuel at the same pressure. It is a small pre-mixing apparatus for compact high-load gas fuel combustion, which forms a first chamber and a second chamber for ejecting, and is formed by a gap connecting the first chamber and the second chamber.

With reference to the drawings 1 to 3 attached to an embodiment of the present invention having the above objects and features will be described in detail the configuration and effect.

In recent years, the combustion surface of gas burners attached to gas burners such as gas boilers can be burned at high loads per unit area by using porous plates made of ceramics or stainless steel or metal fiber woven fabrics with high durability and corrosion resistance. Due to the short design, it is possible to design with a very compact structure and to improve thermal efficiency due to the high load combustion. Therefore, the gas burner surface is replaced with a porous plate made of ceramic, stainless steel or metal fiber, which has high durability and corrosion resistance. The mixing device formed on the pre-mixed gas burner which receives the mixed fuel gas and burns it on the combustion surface of the burner after completely mixing (premixing) the gas fuel in advance before burning the gas to burn the pre-mixed fuel gas Burners have shorter, smaller flame lengths Since the combustion performance is improved only by the amount of air, the amount of loss due to the exhaust gas is small and the amount of pollution emission such as NOx, CO, etc. is small, and the direction in which the burner is installed in the gas combustion device can be installed vertically or downwardly. It is possible to reduce the exhaust gas temperature and to form a structure that can absorb the latent heat of condensate generated by reducing the exhaust gas temperature by using a corrosion resistant material that can withstand low temperature corrosion. In order to maximize gas boiler efficiency, the present invention, as shown in FIG. 1, includes a plurality of gas fuel supply ports 2 and circumferentially formed inner bodies 3 for supplying fuel to one side of the outer body 1. Two nozzles (3a, 3b), for forming and ejecting the gas fuel at the same pressure on both sides of the outer body (1) Forming a first chamber (1a) and the second chamber (1b), and is configured by forming a small gap (1c) for connecting the first chamber (1a) and the second chamber (1b).

The operation of the present invention described above is as follows.

The gas fuel supplied through the gas fuel supply port 2 is uniformly filled in the circumferential direction in the first chamber 1a and stabilized, and then passes through the gap to refill the second chamber 1b. The gaseous fuel is ejected from the nozzles 3a and 3b drilled at a constant distance in the circumferential direction of the inner body 3 while forming the same pressure in the circumferential direction, and the blower (not shown) in the premixer. The mixture is mixed with the combustion air supplied from the combustion gas, and is introduced into the burner of the blowing boiler as the premixed fuel gas and combusted.

Therefore, the present invention is designed to have a compact structure and a low pressure drop and a loss structure compared to the gas burner premixer used so far, and in case the combustion air and the gas fuel flow to one side, partially As the equivalence ratio is changed, the flame on the burner combustion surface is biased, and the burner's combustion performance is worsened. Therefore, the flame length of the burner is as short as possible, and the mixed fuel gas is biased in the flow even in a small space. It is very useful because gas fuel and combustion air are completely mixed to minimize the generation of harmful gas during combustion and maximize the thermal efficiency of the gas boiler due to this, and also considering the ease of production and convenience when manufacturing the burner. It is invention with utility.

Claims (1)

It is formed of a gas fuel supply port (2) for supplying fuel to one side of the outer body (1) and a plurality of nozzles (3a, 3b) formed in the circumferential direction of the inner body (3), of the outer body (1) Gas fuel is formed at the same pressure on both sides. The first chamber (1a) and the second chamber (1b) for ejecting and forming a small gap (1c) connecting the first chamber (1a) and the second chamber (1b) Ultra-small premixing device for high load gas fuel combustion